Select the Note you want to read from
We have 1 notes
1
Note #1
Analog Electronic Circuits are electronic circuits with a continuous variable signals The term Analog describes the proportional relationship between a Signal and a Voltage or Current that represents the signal
 Pages: 106 Pages
 Chapters: 8
 Subscribers : 18
 Page Views: 5833

Syllabus
MODULE – I (12 Hours):
1. MOS FieldEffect Transistor: Principle and Physical Operation of FETs and MOSFETs. PChannel and NChannel MOSFET, Complimentary MOS, VI Characteristics of E MOSFETS and DMOSFETS, MOSFETS as an Amplifier and a Switch (4 Hours)
2. Biasing of BJTs: Load lines (AC and DC), Operating Points, Fixed Bias and Self Bias, DC Bias with Voltage Feedback, Bias Stabilization, Design Operation. (4 Hours)
3. Biasing of FETs and MOSFETs: Fixed Bias Configuration and Self Bias Configuration, Voltage Divider Bias and Design (4 Hours)
MODULE – II (17 Hours):
4. Small Signal Analysis of BJTs: SmallSignal EquivalentCircuit Model, Graphical Determination of hparameters Small Signal Analysis of CE, CC, CB Amplifier with and without RE. Effect of RS and RL on CE Amplifier, Emitter Follower, Analysis of Cascade, Darlington Connection and Current Mirror Circuits using BJTs. (6 Hours)
5. Small Signal Analysis of FETs: SmallSignal EquivalentCircuit Model, Small Signal Analysis of CS, CD, CG Amplifier with and without RS. Effect of RSIG and RL on CS Amplifier, Analysis of Source Follower and Cascaded System using FETs. (6 Hours)
6. High Frequency Response of FETs and BJTs: Low and High Frequency Response of BJTs and FETs, The Unit gain – frequency (ft), Frequency Response of CS Amplifier, Frequency Response of CE Amplifier, Multistage Frequency Effects, Miller Effect Capacitance, Square Wave Testing. (5 Hours)
MODULE – III (12 hours):
7. Feedback and Oscillators: Feedback Concepts, Four Basic Feedback Topologies, Practical Feedback Circuits, Feedback Amplifier Stability using Nyquist Plot, Basic Principle of Sinusoidal Oscillator, WeinBridge, Phase Shift and Crystal Oscillator Circuits. (4 Hours)
8. Operational Amplifier: Ideal OpAmp, Differential Amplifier, OpAmp Parameters, Slew rate, Noninverting Configurations, Effect of Finite Openloop and Closedloop Gain, Differentiator and Integrator, Instrumentation amplifier, µA 741OpAmp . (5 Hours)
9. Power Amplifier: Classifications, ClassA and ClassB Amplifier Circuits, Transfer Characteristics, Power Dissipation and Conversion Efficiency of Power Amplifiers. (3 Hours)